Downstream process design for Gag HIV-1 based virus-like particles

Elianet Lorenzo, Laia Miranda, Francesc Gòdia, Laura Cervera Gracia

Research output: Contribution to journalArticleResearchpeer-review

6 Citations (Scopus)

Abstract

Virus-like particles-based vaccines have been gaining interest in recent years. The manufacturing of these particles includes their production by cell culture followed by their purification to meet the requirements of its final use. The presence of host cell extracellular vesicles represents a challenge for better virus-like particles purification, because both share similar characteristics which hinders their separation. The present study aims to compare some of the most used downstream processing technologies for capture and purification of virus-like particles. Four steps of the purification process were studied, including a clarification step by depth filtration and filtration, an intermediate step by tangential flow filtration or multimodal chromatography, a capture step by ion exchange, heparin affinity and hydrophobic interaction chromatography and finally, a polishing step by size exclusion chromatography. In each step, the yields were evaluated by percentage of recovery of the particles of interest, purity, and elimination of main contaminants. Finally, a complete purification train was implemented using the best results obtained in each step. A final concentration of 1.40 × 10 virus-like particles (VLPs)/mL with a purity of 64% after the polishing step was achieved, with host cell DNA and protein levels complaining with regulatory standards, and an overall recovery of 38%. This work has resulted in the development of a purification process for HIV-1 Gag-eGFP virus-like particles suitable for scale-up.
Original languageEnglish
Pages (from-to)2672-2684
Number of pages13
JournalBiotechnology and Bioengineering
Volume120
Issue number9
DOIs
Publication statusPublished - 6 May 2023

Keywords

  • Chromatography
  • Clarification
  • Downstream processing
  • HIV-1 Gag-eGFP VLP
  • Nanoparticlequantification

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